IBC-IRC Railing Test Report Template€¦ · fairway architectural railing solutions test report scope of work structural peformance testing on p300 rigid cellular pvc guardrail system
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FAIRWAY ARCHITECTURAL RAILING SOLUTIONS TEST REPORT
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample(s) tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program.
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REPORT ISSUED TO FAIRWAY ARCHITECTURAL RAILING SOLUTIONS 53 Eby Chiques Road P.O. Box 37 Mount Joy, PA 17552 SECTION 1 SCOPE Intertek Building & Construction (B&C) was contracted by Fairway Architectural Railing Solutions to perform structural performance testing in accordance with the 2015 IBC on their 96 in wide by 42 in high P300 rigid cellular PVC guardrail system. All tests performed were to evaluate structural performance of the guardrail assembly to carry and transfer imposed loads to the supporting structure. The test specimens evaluated included the infill, rails, rail brackets, and attachment to support posts. The support posts were conventional construction and not within the scope of the evaluation. Posts were therefore not a tested component and were included in the test specimen only to facilitate anchorage of the rail brackets. Anchorage of support posts to the supporting structure is not included in the scope of this testing and would need to be evaluated separately. Results obtained are tested values and were secured by using the designated test method(s). Testing was conducted at the Intertek B&C test facility in York, Pennsylvania. Intertek B&C has demonstrated compliance with ISO/IEC International Standard 17025 and is consequently accredited as a Testing Laboratory (TL-144) by International Accreditation Service, Inc. (IAS). This report does not constitute certification of this product nor an opinion or endorsement by this laboratory. SECTION 2 SUMMARY OF TEST RESULTS The specimen met the 2015 IBC design load performance requirements. For INTERTEK B&C:
COMPLETED BY: Adam J. Schrum REVIEWED BY: V. Thomas Mickley, Jr., P.E.
TITLE: Lead Technician TITLE: Senior Staff Engineer SIGNATURE:
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
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SECTION 3 TEST METHOD(S) The specimen was evaluated in accordance with the following:
2015, International Building Code®, International Code Council
Structural tests were performed according to Chapter 17 (Structural Tests and Special Inspections) of IBC 2015. SECTION 4 MATERIAL SOURCE/INSTALLATION Test samples were provided by the client. The 96 in wide by 42 in high guardrail assembly was installed and tested as a single railing section by directly securing the posts into a rigid steel test fixture, which rigidly restrained the posts from deflecting. Transducers mounted to an independent reference frame were located to record movement of reference points on the guardrail system components (ends and mid-point) to determine net component deflections. See photographs in Section 11 for individual test setups. SECTION 5 EQUIPMENT The guardrail was tested in a self-contained structural frame designed to accommodate anchorage of the guardrail assembly and application of the required test loads. The specimens were loaded using an electric winch mounted to a rigid steel test frame. High strength steel cables, nylon straps, and load distribution beams were used to impose test loads on the specimens. Applied load was measured using an electronic load cell located in-line with the loading system. Electronic linear motion transducers were used to measure deflections. SECTION 6 LIST OF OFFICIAL OBSERVERS
NAME COMPANY
Travis Scott Fairway Architectural Railing Solutions
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
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SECTION 7 TEST PROCEDURE Each test specimen was inspected prior to testing to verify size and general condition of the materials, assembly, and installation. No potentially compromising defects were observed prior to testing. An initial load, not exceeding 50% of design load, was applied and transducers were zeroed. Load was then applied at a steady uniform rate until reaching 2.0 times design load in no less than 10 seconds. After reaching 2.0 times design load, the load was released. After allowing a minimum period of one minute for stabilization, load was reapplied to the initial load level used at the start of the loading procedure, and deflections were recorded and used to analyze recovery. Load was then increased at a steady uniform rate until reaching 2.5 times design load or until failure occurred. The testing time was continually recorded from the application of initial test load until the ultimate test load was reached. Deflection and permanent set were component deflections relative to their end-points; they were not overall system displacements. All loads and displacement measurements were horizontal, unless noted otherwise. Key to Test Results Tables: Load Level: Target test load
Test Load: Actual applied load at the designated load level (target).
Elapsed Time (E.T.): The amount of time into the test with zero established at the beginning of the loading procedure.
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
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SECTION 8 TEST SPECIMEN DESCRIPTION Fairway Architectural Railing Solutions provided the fully-assembled test specimens with the following details:
PRODUCT P300 Rigid Cellular PVC Guardrail System
OVERALL DIMENSIONS 96 in wide (inside of post to inside of post) by 42 in high (deck surface to top of top rail)
TOP RAIL 3-3/8 in wide by 2-3/8 in high rigid cellular PVC contoured rail
BOTTOM RAIL 2-5/8 in wide by 2-1/8 in high rigid cellular PVC contoured rail
BALUSTERS (IN-FILL) 1-1/4 in square solid rigid cellular PVC picket
REINFORCING 1-11/16 in wide by 1-3/4 in high, H-shaped, unspecified aluminum alloy section; full length of top and bottom rail
BOTTOM RAIL SUPPORT BLOCK
Section of 1-1/4 in square picket cut to length and secured to the bottom rail reinforcing; located at midspan of bottom rail
RAIL BRACKETS 300 Series Stainless Steel Powder Coated Brackets
FASTENERS #10-20 by 1-1/4 in (0.135 in minor diameter) pan head, square-drive screws, hi-lo threads (two in top bracket/post); 1/4 in-16 by 1 in (0.165 in minor diameter) pan head, square-drive screw, hi-lo threads (one in bottom bracket/post); #10-12 by 3/4 in (0.134 in minor diameter) pan-head, square-drive screws (two in top rail/bracket, one in bottom rail/bracket, one in bottom rail reinforcing/support block)
POST Preservative treated Southern Yellow Pine 4 in by 4 in
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
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SECTION 10 CONCLUSION Using performance criteria of withstanding an ultimate load of 2.5 times design load, the test results substantiate compliance with the design load requirements of the referenced building codes for the 96 in wide by 42 in high P300 rigid cellular PVC railing assembly reported herein. The railing supports were not included within the scope of this testing, and these conclusions would apply only for a railing that is provided with adequate supports that provide equal or better substrate material (Southern Pine wood) for the fasteners used to anchor the rail brackets. Anchorage of support posts to the supporting structure is not included in the scope of this testing and would need to be evaluated separately.
TEST REPORT FOR FAIRWAY ARCHITECTURAL RAILING SOLUTIONS Report No.: H8228.01-119-19 R0 Date: 02/20/18
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SECTION 12 DRAWINGS The "As-Built" drawings for the P300 rigid cellular PVC guardrail system which follow have been reviewed by Intertek B&C and are representative of the project reported herein. Project construction was verified by Intertek B&C per the drawings included in this report. Any deviations are documented herein or on the drawings.